arm-uboot: Make self-relocatable to allow loading at any address

This commit is contained in:
Vladimir Serbinenko 2016-02-19 00:43:36 +01:00
parent 5bcb7d394c
commit 86ef66d977
7 changed files with 305 additions and 87 deletions

View file

@ -90,7 +90,7 @@ kernel = {
i386_qemu_cppflags = '-DGRUB_BOOT_MACHINE_LINK_ADDR=$(GRUB_BOOT_MACHINE_LINK_ADDR)';
emu_cflags = '$(CFLAGS_GNULIB)';
emu_cppflags = '$(CPPFLAGS_GNULIB)';
arm_uboot_ldflags = '-Wl,-Ttext=0x08000000';
arm_uboot_ldflags = '-Wl,-r,-d';
arm_uboot_stripflags = '--strip-unneeded -K start -R .note -R .comment -R .note.gnu.gold-version';
i386_pc_startup = kern/i386/pc/startup.S;

View file

@ -55,10 +55,6 @@ FUNCTION(_start)
VARIABLE(grub_total_module_size)
.long 0
VARIABLE(grub_uboot_machine_type)
.long 0
VARIABLE(grub_uboot_boot_data)
.long 0
VARIABLE(grub_modbase)
.long 0
bss_start_ptr:
@ -66,29 +62,66 @@ bss_start_ptr:
end_ptr:
.long EXT_C(_end)
@ Memory map at start:
@ * text+data
@ * list relocations
@ * modules
@ Before we enter C, we need to apply the relocations
@ and get following map:
@ * text+data
@ * BSS (cleared)
@ * stack
@ * modules
@
@ To make things easier we ensure
@ that BSS+stack is larger than list of relocations
@ by increasing stack if necessarry.
@ This allows us to always unconditionally copy backwards
@ Currently list of relocations is ~5K and stack is set
@ to be at least 256K
FUNCTION(codestart)
@ Store context: Machine ID, atags/dtb, ...
@ U-Boot API signature is stored on the U-Boot heap
@ Stack pointer used as start address for signature probing
mov r12, sp
adr sp, entry_state
push {r4-r12,lr} @ store U-Boot context (sp in r12)
push {r1-r12,lr} @ store U-Boot context (sp in r12)
str r1, EXT_C(grub_uboot_machine_type)
str r2, EXT_C(grub_uboot_boot_data)
@ Modules have been stored as a blob in BSS,
@ they need to be manually relocated to _end
adr r1, _start
ldr r0, bss_start_ptr @ src
add r0, r0, r1
add r0, r0, #(GRUB_KERNEL_MACHINE_MOD_ALIGN - 1)
mvn r2, #(GRUB_KERNEL_MACHINE_MOD_ALIGN - 1)
and r0, r0, r2
1:
ldr r3, [r0], #4 @load next offset
@ both -2 and -1 are treated the same as we have only one type of relocs
@ -2 means "end of this type of relocs" and -1 means "end of all relocs"
add r2, r3, #2
cmp r2, #1
bls reloc_done
@ Adjust next offset
ldr r2, [r3, r1]
add r2, r2, r1
str r2, [r3, r1]
b 1b
reloc_done:
@ Modules have been stored as a blob
@ they need to be manually relocated to _end
add r0, r0, #(GRUB_KERNEL_MACHINE_MOD_ALIGN - 1)
mvn r1, #(GRUB_KERNEL_MACHINE_MOD_ALIGN - 1)
and r0, r0, r1
and r0, r0, r1 @ src = aligned end of relocations
ldr r1, end_ptr @ dst = End of BSS
ldr r2, grub_total_module_size @ blob size
add r1, r1, #GRUB_KERNEL_MACHINE_STACK_SIZE
and r1, r1, #~0x7 @ Ensure 8-byte alignment
sub sp, r1, #8
add r1, r1, #1024
@ -157,6 +190,11 @@ FUNCTION(grub_uboot_return)
.align 3
@ U-boot context stack space
entry_state_end:
VARIABLE(grub_uboot_machine_type)
.long 0 @ r1
VARIABLE(grub_uboot_boot_data)
.long 0 @ r2
.long 0 @ r3
.long 0 @ r4
.long 0 @ r5
.long 0 @ r6

View file

@ -26,7 +26,7 @@
#endif /* ! ASM_FILE */
#define GRUB_KERNEL_MACHINE_STACK_SIZE 0x40000
#define GRUB_KERNEL_MACHINE_STACK_SIZE GRUB_KERNEL_ARM_STACK_SIZE
#define GRUB_KERNEL_MACHINE_HEAP_SIZE (grub_size_t) (16 * 1024 * 1024)
#endif /* ! GRUB_KERNEL_MACHINE_HEADER */

View file

@ -54,6 +54,7 @@
/* The offset of GRUB_TOTAL_MODULE_SIZE. */
#define GRUB_KERNEL_SPARC64_IEEE1275_TOTAL_MODULE_SIZE 0x8
#define GRUB_KERNEL_ARM_STACK_SIZE 0x40000
#define GRUB_BOOT_SPARC64_IEEE1275_LIST_SIZE 12
@ -120,7 +121,6 @@
#define GRUB_KERNEL_ARM_UBOOT_MOD_ALIGN 0x8
#define GRUB_KERNEL_ARM_UBOOT_TOTAL_MODULE_SIZE 0x4
#define GRUB_KERNEL_ARM_UBOOT_LINK_ADDR 0x08000000
/* Minimal gap between _end and the start of the modules. It's a hack
for PowerMac to prevent "CLAIM failed" error. The real fix is to

View file

@ -33,8 +33,8 @@ struct grub_mkimage_layout
grub_size_t ia64_got_off;
grub_size_t got_size;
unsigned ia64jmpnum;
Elf_Addr bss_start;
Elf_Addr end;
grub_uint32_t bss_start;
grub_uint32_t end;
};
/* Private header. Use only in mkimage-related sources. */
@ -83,6 +83,7 @@ struct grub_install_image_target_desc
unsigned decompressor_compressed_size;
unsigned decompressor_uncompressed_size;
unsigned decompressor_uncompressed_addr;
unsigned reloc_table_offset;
unsigned link_align;
grub_uint16_t elf_target;
unsigned section_align;

View file

@ -86,6 +86,12 @@ struct fixup_block_list
#define ALIGN_ADDR(x) (ALIGN_UP((x), image_target->voidp_sizeof))
static int
is_relocatable (const struct grub_install_image_target_desc *image_target)
{
return image_target->id == IMAGE_EFI || image_target->id == IMAGE_UBOOT;
}
#ifdef MKIMAGE_ELF32
/*
@ -529,9 +535,9 @@ SUFFIX (relocate_symbols) (Elf_Ehdr *e, Elf_Shdr *sections,
}
else if (cur_index == STN_UNDEF)
{
if (sym->st_name && grub_strcmp (name, "__bss_start"))
if (sym->st_name && grub_strcmp (name, "__bss_start") == 0)
sym->st_value = bss_start;
else if (sym->st_name && grub_strcmp (name, "__end"))
else if (sym->st_name && grub_strcmp (name, "_end") == 0)
sym->st_value = end;
else if (sym->st_name)
grub_util_error ("undefined symbol %s", name);
@ -1008,6 +1014,7 @@ SUFFIX (relocate_addresses) (Elf_Ehdr *e, Elf_Shdr *sections,
grub_util_info (" ABS32:\toffset=%d\t(0x%08x)",
(int) sym_addr, (int) sym_addr);
/* Data will be naturally aligned */
if (image_target->id == IMAGE_EFI)
sym_addr += 0x400;
*target = grub_host_to_target32 (grub_target_to_host32 (*target) + sym_addr);
}
@ -1194,22 +1201,42 @@ add_fixup_entry (struct fixup_block_list **cblock, grub_uint16_t type,
return current_address;
}
struct raw_reloc
{
struct raw_reloc *next;
grub_uint32_t offset;
enum raw_reloc_type {
RAW_RELOC_NONE = -1,
RAW_RELOC_32 = 0,
RAW_RELOC_MAX = 1,
} type;
};
struct translate_context
{
/* PE */
struct fixup_block_list *lst, *lst0;
Elf_Addr current_address;
/* Raw */
struct raw_reloc *raw_relocs;
};
static void
translate_reloc_start (struct translate_context *ctx)
translate_reloc_start (struct translate_context *ctx,
const struct grub_install_image_target_desc *image_target)
{
grub_memset (ctx, 0, sizeof (*ctx));
if (image_target->id == IMAGE_EFI)
{
ctx->lst = ctx->lst0 = xmalloc (sizeof (*ctx->lst) + 2 * 0x1000);
memset (ctx->lst, 0, sizeof (*ctx->lst) + 2 * 0x1000);
ctx->current_address = 0;
}
}
static void
translate_relocation (struct translate_context *ctx,
translate_relocation_pe (struct translate_context *ctx,
Elf_Addr addr,
Elf_Addr info,
const struct grub_install_image_target_desc *image_target)
@ -1353,9 +1380,67 @@ translate_relocation (struct translate_context *ctx,
}
}
static enum raw_reloc_type
classify_raw_reloc (Elf_Addr info,
const struct grub_install_image_target_desc *image_target)
{
/* Necessary to relocate only absolute addresses. */
switch (image_target->elf_target)
{
case EM_ARM:
switch (ELF_R_TYPE (info))
{
case R_ARM_V4BX:
case R_ARM_JUMP24:
case R_ARM_THM_CALL:
case R_ARM_THM_JUMP19:
case R_ARM_THM_JUMP24:
case R_ARM_CALL:
return RAW_RELOC_NONE;
case R_ARM_ABS32:
return RAW_RELOC_32;
default:
grub_util_error (_("relocation 0x%x is not implemented yet"),
(unsigned int) ELF_R_TYPE (info));
break;
}
break;
default:
grub_util_error ("unknown machine type 0x%x", image_target->elf_target);
}
}
static void
finish_reloc_translation (struct translate_context *ctx,
struct grub_mkimage_layout *layout,
translate_relocation_raw (struct translate_context *ctx,
Elf_Addr addr,
Elf_Addr info,
const struct grub_install_image_target_desc *image_target)
{
enum raw_reloc_type class = classify_raw_reloc (info, image_target);
struct raw_reloc *rel;
if (class == RAW_RELOC_NONE)
return;
rel = xmalloc (sizeof (*rel));
rel->next = ctx->raw_relocs;
rel->type = class;
rel->offset = addr;
ctx->raw_relocs = rel;
}
static void
translate_relocation (struct translate_context *ctx,
Elf_Addr addr,
Elf_Addr info,
const struct grub_install_image_target_desc *image_target)
{
if (image_target->id == IMAGE_EFI)
translate_relocation_pe (ctx, addr, info, image_target);
else
translate_relocation_raw (ctx, addr, info, image_target);
}
static void
finish_reloc_translation_pe (struct translate_context *ctx, struct grub_mkimage_layout *layout,
const struct grub_install_image_target_desc *image_target)
{
ctx->current_address = add_fixup_entry (&ctx->lst, 0, 0, 1, ctx->current_address, image_target);
@ -1381,14 +1466,90 @@ finish_reloc_translation (struct translate_context *ctx,
}
layout->reloc_size = ctx->current_address;
if (image_target->elf_target == EM_ARM && layout->reloc_size > GRUB_KERNEL_ARM_STACK_SIZE)
grub_util_error ("Reloc section (%d) is bigger than stack size (%d). "
"This breaks assembly assumptions. Please increase stack size",
(int) layout->reloc_size,
(int) GRUB_KERNEL_ARM_STACK_SIZE);
}
/*
Layout:
<type 0 relocations>
<fffffffe>
<type 1 relocations>
<fffffffe>
...
<type n relocations>
<ffffffff>
each relocation starts with 32-bit offset. Rest depends on relocation.
mkimage stops when it sees first unknown type or end marker.
This allows images to be created with mismatched mkimage and
kernel as long as no relocations are present in kernel that mkimage
isn't aware of (in which case mkimage aborts).
This also allows simple assembly to do the relocs.
*/
#define RAW_SEPARATOR 0xfffffffe
#define RAW_END_MARKER 0xffffffff
static void
finish_reloc_translation_raw (struct translate_context *ctx, struct grub_mkimage_layout *layout,
const struct grub_install_image_target_desc *image_target)
{
size_t count = 0, sz;
enum raw_reloc_type highest = RAW_RELOC_NONE;
enum raw_reloc_type curtype;
struct raw_reloc *cur;
grub_uint32_t *p;
if (!ctx->raw_relocs)
{
layout->reloc_section = p = xmalloc (sizeof (grub_uint32_t));
p[0] = RAW_END_MARKER;
layout->reloc_size = sizeof (grub_uint32_t);
return;
}
for (cur = ctx->raw_relocs; cur; cur = cur->next)
{
count++;
if (cur->type > highest)
highest = cur->type;
}
/* highest separators, count relocations and one end marker. */
sz = (highest + count + 1) * sizeof (grub_uint32_t);
layout->reloc_section = p = xmalloc (sz);
for (curtype = 0; curtype <= highest; curtype++)
{
/* Support for special cases would go here. */
for (cur = ctx->raw_relocs; cur; cur = cur->next)
if (cur->type == curtype)
{
*p++ = cur->offset;
}
*p++ = RAW_SEPARATOR;
}
*--p = RAW_END_MARKER;
layout->reloc_size = sz;
}
static void
finish_reloc_translation (struct translate_context *ctx, struct grub_mkimage_layout *layout,
const struct grub_install_image_target_desc *image_target)
{
if (image_target->id == IMAGE_EFI)
finish_reloc_translation_pe (ctx, layout, image_target);
else
finish_reloc_translation_raw (ctx, layout, image_target);
}
static void
translate_reloc_jumpers (struct translate_context *ctx,
Elf_Addr jumpers, grub_size_t njumpers,
const struct grub_install_image_target_desc *image_target)
{
unsigned i;
assert (image_target->id == IMAGE_EFI);
for (i = 0; i < njumpers; i++)
ctx->current_address = add_fixup_entry (&ctx->lst,
GRUB_PE32_REL_BASED_DIR64,
@ -1403,14 +1564,13 @@ make_reloc_section (Elf_Ehdr *e, struct grub_mkimage_layout *layout,
Elf_Addr *section_addresses, Elf_Shdr *sections,
Elf_Half section_entsize, Elf_Half num_sections,
const char *strtab,
Elf_Addr jumpers, grub_size_t njumpers,
const struct grub_install_image_target_desc *image_target)
{
unsigned i;
Elf_Shdr *s;
struct translate_context ctx;
translate_reloc_start (&ctx);
translate_reloc_start (&ctx, image_target);
for (i = 0, s = sections; i < num_sections;
i++, s = (Elf_Shdr *) ((char *) s + section_entsize))
@ -1451,7 +1611,10 @@ make_reloc_section (Elf_Ehdr *e, struct grub_mkimage_layout *layout,
}
if (image_target->elf_target == EM_IA_64)
translate_reloc_jumpers (&ctx, jumpers, njumpers,
translate_reloc_jumpers (&ctx,
layout->ia64jmp_off
+ image_target->vaddr_offset,
2 * layout->ia64jmpnum + (layout->got_size / 8),
image_target);
finish_reloc_translation (&ctx, layout, image_target);
@ -1462,7 +1625,7 @@ make_reloc_section (Elf_Ehdr *e, struct grub_mkimage_layout *layout,
static int
SUFFIX (is_text_section) (Elf_Shdr *s, const struct grub_install_image_target_desc *image_target)
{
if (image_target->id != IMAGE_EFI
if (!is_relocatable (image_target)
&& grub_target_to_host32 (s->sh_type) != SHT_PROGBITS)
return 0;
return ((grub_target_to_host (s->sh_flags) & (SHF_EXECINSTR | SHF_ALLOC))
@ -1473,7 +1636,7 @@ SUFFIX (is_text_section) (Elf_Shdr *s, const struct grub_install_image_target_de
static int
SUFFIX (is_data_section) (Elf_Shdr *s, const struct grub_install_image_target_desc *image_target)
{
if (image_target->id != IMAGE_EFI
if (!is_relocatable (image_target)
&& grub_target_to_host32 (s->sh_type) != SHT_PROGBITS)
return 0;
return ((grub_target_to_host (s->sh_flags) & (SHF_EXECINSTR | SHF_ALLOC))
@ -1536,14 +1699,13 @@ SUFFIX (put_section) (Elf_Shdr *s, int i,
into .text and .data, respectively. Return the array of section
addresses. */
static Elf_Addr *
SUFFIX (locate_sections) (const char *kernel_path,
SUFFIX (locate_sections) (Elf_Ehdr *e, const char *kernel_path,
Elf_Shdr *sections, Elf_Half section_entsize,
Elf_Half num_sections, const char *strtab,
struct grub_mkimage_layout *layout,
const struct grub_install_image_target_desc *image_target)
{
int i;
Elf_Addr current_address;
Elf_Addr *section_addresses;
Elf_Shdr *s;
@ -1555,7 +1717,7 @@ SUFFIX (locate_sections) (const char *kernel_path,
section_addresses = xmalloc (sizeof (*section_addresses) * num_sections);
memset (section_addresses, 0, sizeof (*section_addresses) * num_sections);
current_address = 0;
layout->kernel_size = 0;
for (i = 0, s = sections;
i < num_sections;
@ -1571,8 +1733,8 @@ SUFFIX (locate_sections) (const char *kernel_path,
i++, s = (Elf_Shdr *) ((char *) s + section_entsize))
if (SUFFIX (is_text_section) (s, image_target))
{
current_address = SUFFIX (put_section) (s, i,
current_address,
layout->kernel_size = SUFFIX (put_section) (s, i,
layout->kernel_size,
section_addresses,
strtab,
image_target);
@ -1589,42 +1751,63 @@ SUFFIX (locate_sections) (const char *kernel_path,
}
}
current_address = ALIGN_UP (current_address + image_target->vaddr_offset,
layout->kernel_size = ALIGN_UP (layout->kernel_size + image_target->vaddr_offset,
image_target->section_align)
- image_target->vaddr_offset;
layout->exec_size = current_address;
layout->exec_size = layout->kernel_size;
/* .data */
for (i = 0, s = sections;
i < num_sections;
i++, s = (Elf_Shdr *) ((char *) s + section_entsize))
if (SUFFIX (is_data_section) (s, image_target))
current_address = SUFFIX (put_section) (s, i,
current_address,
layout->kernel_size = SUFFIX (put_section) (s, i,
layout->kernel_size,
section_addresses,
strtab,
image_target);
current_address = ALIGN_UP (current_address + image_target->vaddr_offset,
#ifdef MKIMAGE_ELF32
if (image_target->elf_target == EM_ARM)
{
grub_size_t tramp;
layout->kernel_size = ALIGN_UP (layout->kernel_size + image_target->vaddr_offset,
image_target->section_align) - image_target->vaddr_offset;
layout->bss_start = current_address;
layout->kernel_size = ALIGN_UP (layout->kernel_size, 16);
tramp = arm_get_trampoline_size (e, sections, section_entsize,
num_sections, image_target);
layout->tramp_off = layout->kernel_size;
layout->kernel_size += ALIGN_UP (tramp, 16);
}
#endif
layout->bss_start = layout->kernel_size;
layout->end = layout->kernel_size;
/* .bss */
for (i = 0, s = sections;
i < num_sections;
i++, s = (Elf_Shdr *) ((char *) s + section_entsize))
if (SUFFIX (is_bss_section) (s, image_target))
current_address = SUFFIX (put_section) (s, i,
current_address,
layout->end = SUFFIX (put_section) (s, i,
layout->end,
section_addresses,
strtab,
image_target);
current_address = ALIGN_UP (current_address + image_target->vaddr_offset,
layout->end = ALIGN_UP (layout->end + image_target->vaddr_offset,
image_target->section_align) - image_target->vaddr_offset;
layout->end = current_address;
layout->kernel_size = current_address;
/* Explicitly initialize BSS
when producing PE32 to avoid a bug in EFI implementations.
Platforms other than EFI and U-boot shouldn't have .bss in
their binaries as we build with -Wl,-Ttext.
*/
if (image_target->id != IMAGE_UBOOT)
layout->kernel_size = layout->end;
return section_addresses;
}
@ -1674,7 +1857,7 @@ SUFFIX (grub_mkimage_load_image) (const char *kernel_path,
+ grub_host_to_target16 (e->e_shstrndx) * section_entsize);
strtab = (char *) e + grub_host_to_target_addr (s->sh_offset);
section_addresses = SUFFIX (locate_sections) (kernel_path,
section_addresses = SUFFIX (locate_sections) (e, kernel_path,
sections, section_entsize,
num_sections, strtab,
layout,
@ -1685,7 +1868,7 @@ SUFFIX (grub_mkimage_load_image) (const char *kernel_path,
for (i = 0; i < num_sections; i++)
section_vaddresses[i] = section_addresses[i] + image_target->vaddr_offset;
if (image_target->id != IMAGE_EFI)
if (!is_relocatable (image_target))
{
Elf_Addr current_address = layout->kernel_size;
@ -1706,7 +1889,7 @@ SUFFIX (grub_mkimage_load_image) (const char *kernel_path,
grub_util_info ("locating the section %s at 0x%"
GRUB_HOST_PRIxLONG_LONG,
name, (unsigned long long) current_address);
if (image_target->id != IMAGE_EFI)
if (!is_relocatable (image_target))
current_address = grub_host_to_target_addr (s->sh_addr)
- image_target->link_addr;
@ -1724,10 +1907,11 @@ SUFFIX (grub_mkimage_load_image) (const char *kernel_path,
if (image_target->id == IMAGE_SPARC64_AOUT
|| image_target->id == IMAGE_SPARC64_RAW
|| image_target->id == IMAGE_UBOOT
|| image_target->id == IMAGE_SPARC64_CDCORE)
layout->kernel_size = ALIGN_UP (layout->kernel_size, image_target->mod_align);
if (image_target->id == IMAGE_EFI)
if (is_relocatable (image_target))
{
symtab_section = NULL;
for (i = 0, s = sections;
@ -1740,22 +1924,6 @@ SUFFIX (grub_mkimage_load_image) (const char *kernel_path,
}
if (! symtab_section)
grub_util_error ("%s", _("no symbol table"));
#ifdef MKIMAGE_ELF32
if (image_target->elf_target == EM_ARM)
{
grub_size_t tramp;
layout->kernel_size = ALIGN_UP (layout->kernel_size, 16);
tramp = arm_get_trampoline_size (e, sections, section_entsize,
num_sections, image_target);
layout->tramp_off = layout->kernel_size;
layout->kernel_size += ALIGN_UP (tramp, 16);
}
#endif
#ifdef MKIMAGE_ELF64
if (image_target->elf_target == EM_IA_64)
{
@ -1777,7 +1945,6 @@ SUFFIX (grub_mkimage_load_image) (const char *kernel_path,
layout->kernel_size += ALIGN_UP (layout->got_size, 16);
}
#endif
}
else
{
@ -1788,7 +1955,7 @@ SUFFIX (grub_mkimage_load_image) (const char *kernel_path,
out_img = xmalloc (layout->kernel_size + total_module_size);
memset (out_img, 0, layout->kernel_size + total_module_size);
if (image_target->id == IMAGE_EFI)
if (is_relocatable (image_target))
{
layout->start_address = SUFFIX (relocate_symbols) (e, sections, symtab_section,
section_vaddresses, section_entsize,
@ -1796,6 +1963,8 @@ SUFFIX (grub_mkimage_load_image) (const char *kernel_path,
(char *) out_img + layout->ia64jmp_off,
layout->ia64jmp_off
+ image_target->vaddr_offset,
layout->bss_start,
layout->end,
image_target);
if (layout->start_address == (Elf_Addr) -1)
grub_util_error ("start symbol is not defined");
@ -1813,21 +1982,31 @@ SUFFIX (grub_mkimage_load_image) (const char *kernel_path,
make_reloc_section (e, layout,
section_vaddresses, sections,
section_entsize, num_sections,
strtab, layout->ia64jmp_off
+ image_target->vaddr_offset,
2 * layout->ia64jmpnum + (layout->got_size / 8),
strtab,
image_target);
if (image_target->id != IMAGE_EFI)
{
out_img = xrealloc (out_img, layout->kernel_size + total_module_size
+ ALIGN_UP (layout->reloc_size, image_target->mod_align));
memcpy (out_img + layout->kernel_size, layout->reloc_section, layout->reloc_size);
memset (out_img + layout->kernel_size + layout->reloc_size, 0,
total_module_size + ALIGN_UP (layout->reloc_size, image_target->mod_align) - layout->reloc_size);
layout->kernel_size += ALIGN_UP (layout->reloc_size, image_target->mod_align);
}
}
for (i = 0, s = sections;
i < num_sections;
i++, s = (Elf_Shdr *) ((char *) s + section_entsize))
if (SUFFIX (is_data_section) (s, image_target)
|| SUFFIX (is_bss_section) (s, image_target)
/* Explicitly initialize BSS
when producing PE32 to avoid a bug in EFI implementations.
Platforms other than EFI and U-boot shouldn't have .bss in
their binaries as we build with -Wl,-Ttext.
*/
|| (SUFFIX (is_bss_section) (s, image_target) && (image_target->id != IMAGE_UBOOT))
|| SUFFIX (is_text_section) (s, image_target))
{
/* Explicitly initialize BSS
when producing PE32 to avoid a bug in EFI implementations. */
if (grub_target_to_host32 (s->sh_type) == SHT_NOBITS)
memset (out_img + section_addresses[i], 0,
grub_host_to_target_addr (s->sh_size));

View file

@ -88,6 +88,7 @@ static const struct grub_install_image_target_desc image_targets[] =
.decompressor_compressed_size = TARGET_NO_FIELD,
.decompressor_uncompressed_size = TARGET_NO_FIELD,
.decompressor_uncompressed_addr = TARGET_NO_FIELD,
.reloc_table_offset = TARGET_NO_FIELD,
.section_align = 1,
.vaddr_offset = 0,
.link_addr = GRUB_KERNEL_I386_COREBOOT_LINK_ADDR,
@ -527,7 +528,6 @@ static const struct grub_install_image_target_desc image_targets[] =
.decompressor_uncompressed_addr = TARGET_NO_FIELD,
.section_align = GRUB_KERNEL_ARM_UBOOT_MOD_ALIGN,
.vaddr_offset = 0,
.link_addr = GRUB_KERNEL_ARM_UBOOT_LINK_ADDR,
.elf_target = EM_ARM,
.mod_gap = GRUB_KERNEL_ARM_UBOOT_MOD_GAP,
.mod_align = GRUB_KERNEL_ARM_UBOOT_MOD_ALIGN,
@ -1522,9 +1522,9 @@ grub_install_generate_image (const char *dir, const char *prefix,
hdr->ih_magic = grub_cpu_to_be32_compile_time (GRUB_UBOOT_IH_MAGIC);
hdr->ih_time = grub_cpu_to_be32 (STABLE_EMBEDDING_TIMESTAMP);
hdr->ih_size = grub_cpu_to_be32 (core_size);
hdr->ih_load = grub_cpu_to_be32 (image_target->link_addr);
hdr->ih_ep = grub_cpu_to_be32 (image_target->link_addr);
hdr->ih_type = GRUB_UBOOT_IH_TYPE_KERNEL;
hdr->ih_load = 0;
hdr->ih_ep = 0;
hdr->ih_type = GRUB_UBOOT_IH_TYPE_KERNEL_NOLOAD;
hdr->ih_os = GRUB_UBOOT_IH_OS_LINUX;
hdr->ih_arch = GRUB_UBOOT_IH_ARCH_ARM;
hdr->ih_comp = GRUB_UBOOT_IH_COMP_NONE;